A "floppy disk" (or diskette) is a form of magnetic data storage; thin, flexible, soft, flat piece of mylar plastic, packaged in a 3.5 inch plastic case. The reason it was called a floppy is because obsolete (8 and 5.25 inch formats) types would "flop" as you waved them. Floppy disks were invented by IBM and were a popular form of data storage from the 1970's to the 1990's. The key to their widespread use was their inexpensive cost and ease of portability. Information could be transferred to a floppy disk, stored, disk removed, then inserted into another system to then be accessed.

Although there was a variety of different sizes of floppy disks produced by various manufacturers, the most widely used was the 3.5 X 5.25 inch [2]. (As identified below) It is a form of secondary "permanent" storage and can hold approximately 1.44 MB. The disk is inserted into a floppy disk drive, a device that holds, spins, reads data from, and writes data to a floppy disk.

With the new systems now available, the demise of the floppy disk was inevitable. It has been replaced by CD, CD-ROM and USB Drives. It is deemed "evil" because of its unreliability and small size. However, the floppy disk has not lost its use totally, the very image of the floppy disk has become a symbol for saving data in programs. It has managed to maintain its portability and popularity in a different way.

A zip drive is a secondary storage device that uses zip disks. Zip disks are cartridges similar to floppy disks but capable of storing 70-500 times more memory. Zip disks are disks with a special high quality magnetic coating that have a capacity of 100, 250, or 750 MB [4].

Zip drives are almost obsolete amongst today's students as CDs or memory sticks are much more convenient since they can be read by almost all computers (Zip disks need special zip drives).

A hard-disk drive (HDD) is a non-volatile device used for storage, located inside the computer case. Like the floppy drive, it holds its data on rotating platters with a magnetic upper exterior which are changed or read by electromagnetic tipped arms that move over the disk as it spins.

Hard disks come in various speeds. An IDE/Sata hard disk spins at 4200, 5400, 7200 and some 10,000rpm. HDD comes in four different hardware orientation currently, IDE, SATA, SCSCI and Solid State Drives(Please elaborate or create subsection). An IDE drive is significantly slower than SATA data transfer speeds on newer IDE are typically 133mbps while Sata 1 has a transfer speed of 150mbps, Sata 2 has 300 mbps and the newest Sata 3 has a transfer speeds of 600mbps. A particular Sata hard disk has a spindle speed of 7200rpm which also contributes to the high data transfer speeds. A SCSI hard disk (used in servers and high end computers)have a spindle speed of up to 15000rpm Currently, the fastest hard drive would be a SSD (solid state drive) which relies on non-volatile silicon memory chips arranged in arrays to store data. SSDs have nearly no read and write latency and is capable of speeds of 200-300mbps compared to the standard Sata which is capable of 40-90mbps. A SSD however can cost 10times the price of a mechanical Hard Disk and store a fraction of the data a mechanical hard disk is capable of. Currently the record is 256GB for SSDs and 3TB for HDDs

RAID is the abbreviated term for: Redundant Array of Inexpensive Drives. Raid 0 uses the concept of striping to evenly split data between 2 or more drives. This allows the computer to access multiple drives simultaneously to increase data transfer rate and response time. The disadvantages of this setup is reliability. If one of the drives fail -- your data is gone.

RAID 1, is the setup in which 2 or more disks are used to create copies of each other assuring no data loss if one or more drives fail in the array. Performance wise, there is no gain.

The most cost effective purchase would be for a 500GB internal HD in the SATA format which will run about $50. or 10 cent per 1GB (as of 8-12-11) Values change drastically so look at prices before purchase. Keep in mind most application do not require huge amounts of space, however, if you are a avid Audiophile, Photographer or movie buff who store their files locally the larger the better.

A tape drive is a storage device that uses a streaming magnetic tape to store data. Instead of allowing random-access to data, tape drives only allow sequential-access to data. It must wind between reels to find any particular piece of data at any given time.

Tape drives are used for archival storage of data stored on hard drives Tape_drive

Burning is a process in which a CD is written using indentations that are burned onto the disc. [7] You can burn onto a variety of devices, such as CD-R, CD-RW and DVD-R. This process happens with the use of red or blue lasers. Some burnable devices are rewritable (CD-RW) and some are permanent (CD-R).

Blu-Ray uses a blue violet laser. The laser enables many functions of a video such as recording, rewriting and playback. Much more data can be stored on a Blu-Ray disc than on a regular DVD, over five times the amount of data that a single layer DVD. It also has a duel layer version. Blu-Ray is a new optical disc standard based on the use of a blue laser rather than the red laser of DVD players. The standard was developed collaboratively by Hitachi, LG, Matsushita (Panasonic), Pioneer, Philips, Samsung, Sharp, Sony, and Thomson. Toshiba and NEC are among the companies promoting a competitive optical format, HD-DVD. http://whatis.techtarget.com/definition/0,,sid9_gci810790,00.html

The most flexible storage device. Flash would be considered as a secondary storage. It's a non-volatile computer memory which does not lose it's information when power is lost. It is a technology that is primarily used in memory cards to transfer data between computer and other digital products such as a PDA (personal digital assistant), digital camera, digital camcorder, and etc. The flash memory drive comes in many forms such as a jump drive, use flash drive, and etc.